中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2014年
11期
2856-2863
,共8页
白静%温建康%黄松涛%武彪%刘学%刘爽%蔡镠璐
白靜%溫建康%黃鬆濤%武彪%劉學%劉爽%蔡镠璐
백정%온건강%황송도%무표%류학%류상%채류로
海相火山岩型黄铜矿%斑岩型黄铜矿%化学浸出%中间产物
海相火山巖型黃銅礦%斑巖型黃銅礦%化學浸齣%中間產物
해상화산암형황동광%반암형황동광%화학침출%중간산물
marine volcanic chalcopyrite%porphyry chalcopyrite%chemical leaching%intermediate
采用XRD、XPS和MLA等检测研究海相火山岩型黄铜矿及斑岩型黄铜矿化学浸出的差异性。结果表明:在化学浸出过程中,海相火山岩型黄铜矿与斑岩型黄铜矿浸出特性有很大的差异,这是由于两种黄铜矿表面形成中间产物的性质不同。两种黄铜矿化学浸出的产物除单质硫S 8之外,还有非化学计量的中间产物Cu 3.5 Fe 4 S 2.5、Cu 5 Fe 4 S及Cu 3.5 Fe 1.5 S 5生成。海相火山岩型黄铜矿的中间产物以Cu 3.5 Fe 4 S 2.5为主,斑岩型黄铜矿的中间产物以Cu 3.5 Fe 1.5 S 5为主。海相火山岩型黄铜矿与斑岩型黄铜矿具有不同的溶解途径:海相火山岩型黄铜矿受到H+的腐蚀后矿物中的Cu—S断裂,Cu2+与Fe2+同时溶解,而斑岩型黄铜矿受到H+腐蚀后Fe2+优先溶解。
採用XRD、XPS和MLA等檢測研究海相火山巖型黃銅礦及斑巖型黃銅礦化學浸齣的差異性。結果錶明:在化學浸齣過程中,海相火山巖型黃銅礦與斑巖型黃銅礦浸齣特性有很大的差異,這是由于兩種黃銅礦錶麵形成中間產物的性質不同。兩種黃銅礦化學浸齣的產物除單質硫S 8之外,還有非化學計量的中間產物Cu 3.5 Fe 4 S 2.5、Cu 5 Fe 4 S及Cu 3.5 Fe 1.5 S 5生成。海相火山巖型黃銅礦的中間產物以Cu 3.5 Fe 4 S 2.5為主,斑巖型黃銅礦的中間產物以Cu 3.5 Fe 1.5 S 5為主。海相火山巖型黃銅礦與斑巖型黃銅礦具有不同的溶解途徑:海相火山巖型黃銅礦受到H+的腐蝕後礦物中的Cu—S斷裂,Cu2+與Fe2+同時溶解,而斑巖型黃銅礦受到H+腐蝕後Fe2+優先溶解。
채용XRD、XPS화MLA등검측연구해상화산암형황동광급반암형황동광화학침출적차이성。결과표명:재화학침출과정중,해상화산암형황동광여반암형황동광침출특성유흔대적차이,저시유우량충황동광표면형성중간산물적성질불동。량충황동광화학침출적산물제단질류S 8지외,환유비화학계량적중간산물Cu 3.5 Fe 4 S 2.5、Cu 5 Fe 4 S급Cu 3.5 Fe 1.5 S 5생성。해상화산암형황동광적중간산물이Cu 3.5 Fe 4 S 2.5위주,반암형황동광적중간산물이Cu 3.5 Fe 1.5 S 5위주。해상화산암형황동광여반암형황동광구유불동적용해도경:해상화산암형황동광수도H+적부식후광물중적Cu—S단렬,Cu2+여Fe2+동시용해,이반암형황동광수도H+부식후Fe2+우선용해。
The chemical leaching different characteristics of chalcopyrite with different genetic types (marine volcanic and porphyry) were investigated by XRD, XPS and MLA analysis. The results show that the difference between marine volcanic chalcopyrite and porphyry chalcopyrite during chemical leaching is generated by intermediate formed on the surface of chalcopyrite with different chemical and structural properties. Nonstoichiometric intermediate products, such as Cu3.5Fe4S2.5, Cu5Fe4S and Cu3.5Fe1.5S5, also form during two kinds of chalcopyrite leaching, besides sulphur S8. The main intermediate product of marine volcanic chalcopyrite is Cu 3.5 Fe 4 S 2.5 , while Cu 3.5 Fe 1.5 S 5 is mainly in porphyry chalcopyrite. The leaching mechanism of marine volcanic chalcopyrite and porphyry chalcopyrite is different. During the leaching process of marine volcanic chalcopyrite, Cu2+and Fe2+are dissolved simultaneously after the broken of Cu—S bond attacked by proton. However, Fe2+dissolves preferentially after the porphyry chalcopyrite is corroded by H+.
